This is a problem called "slicing."
Dog() creates a
Dog object. If you were to call
Dog().makeSound(), it would print "bark" as you expect it to.
The problem is that you are initializing the
badDog, which is an object of type
Animal, with this
Dog. Since the
Animal can only contain an
Animal and not anything derived from
Animal, it takes the
Animal part of the
Dog and initializes itself with that.
The type of
badDog is always
Animal; it can never be anything else.
The only way you can get polymorphic behavior in C++ is using pointers (as you have demonstrated with your
goodDog example) or using references.
A reference (e.g.,
Animal&) can refer to an object of any type derived from
Animal and a pointer (e.g.,
Animal*) can point to an object of any type derived from
Animal. A plain
Animal, however, is always an
Animal, nothing else.
Some languages like Java and C# have reference semantics, where variables are (in most cases) just references to objects, so given an
rex is really just a reference to some
rex = new Dog() makes
rex refer to a new
C++ doesn't work that way: variables don't refer to objects in C++, variables are objects. If you say
rex = Dog() in C++, it copies a new
Dog object into
rex, and since
rex is actually of type
Animal, it gets sliced and just the
Animal parts get copied. These are called value semantics, which are the default in C++. If you want reference semantics in C++, you need to explicitly use references or pointers (neither of these are the same as references in C# or Java, but they are more similar).